ArcGIS基于物联网的车辆智能指挥系统的研究
时间:2018-12-16 18:37 来源:毕业论文 作者:毕业论文 点击:次
摘 要如今交通问题日益严重,解决交通堵塞问题迫在眉睫。虽然目前的交通信号灯在一定程度上文护了交通秩序,但是存在着很大的问题,为了给交通信号灯制定出更加合理的时间分配方案,进行了这次基于物联网技术的车辆智能指挥系统的研究。物联网技术是一种能够使物物相连、物物可管、统筹分配资源的技术。本次研究实地调研了道路交叉口类型及参数,运用ArcGIS完成了道路交叉口的成图。经过道路车流量的统计与分析,总结出了道路车辆的出行规律。最后构建道路车辆通行模型,完成了按需配时红绿灯指挥模型的构建与解算。经过对比分析,研究结果得出使用本文研究的系统可以提高交叉口道路通行能力,基于路况或未来物联网的道路交叉口车辆指挥系统,比传统系统拥有更好的指挥效果,是智能车辆指挥系统未来的发展方向。31564 毕业论文关键词:智能指挥,城市交通拥堵,交叉口,物联网,ArcGIS Abstract Nowadays the traffic problem is getting more and more serious, solving this problem is extremely urgent. Although the current traffic lights maintain the traffic order to some extent, there is something wrong with it. In order to develop a plan which allocates time more reasonably for traffic lights, I do a study based on the vehicle intelligent command system using the technology of Internet of things. The Internet of things technology is a kind of technology to establish a connection among things and things and manage things, distribute resources as a whole. A field survey was carried out to get the types and arguments of road intersection. Then I use ArcGIS to complete the figure of road intersections. Through statistics and analysis of road traffic, I summarize the travel law of road vehicles. Finally I built a road traffic model and completed the on-demand distribution when the traffic lights command model building and calculating. Through comparison and analysis, I concluded that using the plan in this paper can greatly improve the intersection traffic capacity. The system based on the road or Internet of things in the future will better than the traditional on traffic. Moreover the command of the intelligent vehicle command system is the development direction of the future. Keywords: intelligent command, city traffic congestion, intersection, IOT, ArcGIS 目 录 摘 要 I 目 录 Ⅱ 1绪论 1 1.1研究意义 1 1.2国内外研究现状 1 1.2.1国外研究现状 1 1.2.2国内研究现状 2 1.3本文研究内容 3 1.4技术路线 4 2道路交叉口类型与道路车流量分布规律研究 5 2.1道路交叉口类型 5 2.1.1道路交叉口概念 5 2.1.2道路交叉口类型 5 2.2道路车流量分布规律研究 7 2.2. 1道路车流量的概念 7 2.2.2研究内容与方法 7 2.2.3观测结果分析 8 3车辆运行规律研究 9 3.1速度、加速度、距离 9 3.2变速运动 10 3.2.1加速运动 10 3.2.2减速运动 10 3.3车辆的运动规律 10 3.3.1各类参数的意义 10 3.3.2车辆运动规律研究 10 4物联网及通讯 11 4.1物联网的概念 11 4.2物联网结构 12 4.3物联网在交通信号灯指挥中的应用 12 4.3.1道路交通信息的检测与采集 12 (责任编辑:qin) |